Diploid Ancestor Tracing of Allopolyploid Cultivars in <i>Camellia reticulata</i> Based on ITS and <i>RPB</i>2 Sequences

Diploid Ancestor Tracing of Allopolyploid Cultivars in <i>Camellia reticulata</i> Based on ITS and <i>RPB</i>2 Sequences

<i>Camellia reticulata</i> is a well-known ornamental species with a type specimen that is an allohexaploid, possibly descended from diploid ancestors like <i>C. saluenensis</i>, <i>C. pitardii</i>, and diploid <i>C. reticulata</i>. With over 1500 year...

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Bibliographic Details
Main Authors: Zhifeng Fan, Wei Zheng, Chengmin Yan, Xiaodan Xu
Format: Article
Language:English
Published: MDPI AG 2025-01-01
Series:Horticulturae
Subjects:
<i>Camellia reticulata</i>
allohexaploid
phylogeny
cultivar origin
fruit morphology
Online Access:https://www.mdpi.com/2311-7524/11/1/85
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Summary:<i>Camellia reticulata</i> is a well-known ornamental species with a type specimen that is an allohexaploid, possibly descended from diploid ancestors like <i>C. saluenensis</i>, <i>C. pitardii</i>, and diploid <i>C. reticulata</i>. With over 1500 years of cultivation, heritage <i>C. reticulata</i> cultivars show varied ploidy levels, including hexaploid, octoploid, and decaploid forms, though their diploid ancestors are still unidentified. This study aims to trace these diploid ancestors by cloning and sequencing ITS from 25 taxa and <i>RPB</i>2 from 21 taxa across various ploidy levels of <i>C. reticulata</i> and its traditional cultivars and related species, combined with their fruit morphology data. Analyses of the ITS and <i>RPB</i>2 sequences suggest that the diploid ancestors of <i>C. reticulata</i> and its traditional cultivars may include <i>C. saluenensis</i>, <i>C. pitardii</i>, and diploid <i>C. reticulata</i>, while excluding <i>C. mairei</i> and <i>C. polyodonta</i>. Morphological analysis showed that diploid <i>C. reticulata</i> has significantly larger fruit weight, diameter, and pericarp thickness compared to <i>C. pitardii</i>, <i>C. saluenensis</i>, and both tetraploid and hexaploid <i>C. reticulata</i>. Since diploid ancestors of allopolyploids are often classified as distinct taxa, we suggest that diploid <i>C. reticulata</i> be recognized as a new variety of <i>C. pitardii</i>, as its ITS sequences are closely aligned with <i>C. pitardii</i>. This study offers key insights into the origin, evolution, and breeding of <i>C. reticulata</i>.
ISSN:2311-7524

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